Patent application number | Description | Published |
20100263913 | METAL WIRING STRUCTURES FOR UNIFORM CURRENT DENSITY IN C4 BALLS - In one embodiment, a sub-pad assembly of metal structures is located directly underneath a metal pad. The sub-pad assembly includes an upper level metal line structure abutting the metal pad, a lower level metal line structure located underneath the upper level metal line structure, and a set of metal vias that provide electrical connection between the lower level metal line structure located underneath the upper level metal line structure. In another embodiment, the reliability of a C4 ball is enhanced by employing a metal pad structure having a set of integrated metal vias that are segmented and distributed to facilitate uniform current density distribution within the C4 ball. The area | 10-21-2010 |
20110147922 | STRUCTURES AND METHODS TO REDUCE MAXIMUM CURRENT DENSITY IN A SOLDER BALL - Structures and methods to reduce maximum current density in a solder ball are disclosed. A method includes forming a contact pad in a last wiring level and forming a plurality of wires of the contact pad extending from side edges of the contact pad to respective ones of a plurality of vias. Each one of the plurality of wires has substantially the same electrical resistance. | 06-23-2011 |
20120080797 | METAL WIRING STRUCTURES FOR UNIFORM CURRENT DENSITY IN C4 BALLS - In one embodiment, a sub-pad assembly of metal structures is located directly underneath a metal pad. The sub-pad assembly includes an upper level metal line structure abutting the metal pad, a lower level metal line structure located underneath the upper level metal line structure, and a set of metal vias that provide electrical connection between the lower level metal line structure located underneath the upper level metal line structure. In another embodiment, the reliability of a C4 ball is enhanced by employing a metal pad structure having a set of integrated metal vias that are segmented and distributed to facilitate uniform current density distribution within the C4 ball. The areal density of the cross-sectional area in the plurality of metal vias is higher at the center portion of the metal pad than at the peripheral portion of the planar portion of the metal pad. | 04-05-2012 |
20120139123 | OFFSET SOLDER VIAS, METHODS OF MANUFACTURING AND DESIGN STRUCTURES - Semiconductor structures, methods of manufacture and design structures are provided. The structure includes at least one offset crescent shaped solder via formed in contact with an underlying metal pad of a chip. The at least one offset crescent shaped via is offset with respect to at least one of the underlying metal pad and an underlying metal layer in direct electrical contact with an interconnect of the chip which is in electrical contact with the underlying metal layer. | 06-07-2012 |
20120279287 | Transferable Probe Tips - Transferable probe tips including a metallic probe, a delamination layer covering a portion of the metallic probe, and a bonding alloy, wherein the bonding alloy contacts the metallic probe at a portion of the probe that is not covered by the delamination layer are provided herein. Also, techniques for creating a transferable probe tip are provided, including etching a handler substrate to form one or more via arrays, depositing a delamination layer in each via array, depositing one or more metals in each via array to form a probe tip structure, and depositing a bonding alloy on a portion of the probe tip structure that is not covered by the delamination layer. Additionally, techniques for transferring transferable probe tips are provided, including removing a handler substrate from a probe tip structure, and transferring the probe tip structure via flip-chip joining the probe tip structure to a target probe head substrate. | 11-08-2012 |
20130234329 | STRUCTURES AND METHODS TO REDUCE MAXIMUM CURRENT DENSITY IN A SOLDER BALL - Structures and methods to reduce maximum current density in a solder ball are disclosed. A method includes forming a contact pad in a last wiring level and forming a plurality of wires of the contact pad extending from side edges of the contact pad to respective ones of a plurality of vias. Each one of the plurality of wires has substantially the same electrical resistance. | 09-12-2013 |
20160084882 | TEST PROBE HEAD FOR FULL WAFER TESTING - A test probe head for probe testing multiple chips on a wafer in a single probing. A probe head substrate includes an array of probe tip attach pads on one surface. The array includes a subarray for each probe head chip test site. Probe tips attached to each probe tip attach pad have an across the head tip height variation less than one micrometer (1 μm). The subarray probe tips may be on a pitch at or less than fifty microns (50 μm). The test probe head may be capable of test probing all chips in a quadrant and even up to all chips on a single wafer in a single probing. | 03-24-2016 |